[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7747/JFES.2018.34.5.359

Forest Floor Biomass, Litterfall and Physico-chemical Properties of Soil along the Anthropogenic Disturbance Regimes in Tropics of Chhattisgarh, India

Oraon, P.R. (Department of Silviculture and Agroforestry, Faculty of Forestry, Birsa Agriculture University)
Singh, Lalji (Indira Gandhi Krishi Vishwavidyalaya)
Jhariya, Manoj Kumar (Department of Farm Forestry, Sarguja University)

Publication Information

Journal of Forest and Environmental Science / v.34, no.5, 2018 , pp. 359-375 More about this Journal

Abstract

The long term ecological effects have been reported in natural forest ecosystem due to various anthropogenic disturbances, especially in tropics of the world. The present study was carried out in the sanctuary area of central India to assess the changes on litter biomass, litterfall pattern and soil attributes under different disturbance regimes. The study area includes three forest circles i.e., Bhoramdeo, Jamunpani and Salehwara each comprising three disturbances regimes viz., high, medium and low severity of biotic pressure. A noticeable variation and impact were recorded in different sites. The impact varies significantly from least disturbed sites to highly disturbed sites across the circle and among different disturbances level. The seasonal mean total forest floor biomass across the forest circles varied from 2.18 to $3.30t\;ha^{-1}$ . It was found highest under lightly disturbed site and lowest under heavily disturbed site. Total litterfall varied from 5.11 to $7.06t\;ha^{-1}\;yr^{-1}$ across the forest circle. Lowest litterfall was recorded at heavily disturbed site while highest in lightly disturbed site. Annual turnover of litter varied from 69-73% and the turnover time ranged between 1.37-1.45 years. The turn over time was higher for heavily disturbed site and lower for lightly disturbed site. The heavily disturbed site of all the circle showed the sandy loam soil texture, whereas moderately and lightly disturbed site comprised of sandy loam, sandy clay loam and clay soil texture, respectively. The bulk density decreases from heavily disturbed site to lightly disturbed site and the pH of soils ranged from 5.57-6.89 across the circle. Across the circle the total soil nitrogen ranged from 0.12-0.21%, phosphorus from 10.03-24.00 kg and Potassium from $139.88-448.35kg\;ha^{-1}$ , respectively. Our results demonstrate that anthropogenic disturbances regime significantly influences forest floors in terms of mass, composition and dynamics along with litterfall rate and soil properties.

Keywords

disturbance regimes; forest soils; littermass; tropical forest;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Clark DA, Brown S, Kicklighter DW, Chambers JQ, Thomlinson JR, Ni J, Holland EA. 2001. Net primary production in tropical forests: An evaluation and synthesis of existing field data. Ecol Appl 11: 371-384. DOI
2	Coleman DC, Elliot ET. 1988. Let the soil work for us. Ecol Bull 39: 23-32.
3	Dantas M, Phillipson J. 1989. Litterfall and litter nutrient content in primary and secondary amazonian 'terra firme' rain forest. J Trop Ecol 5: 27-36. DOI
4	Dawoe EK, Isaac ME, Quashie-Sam J. 2010. Litterfall and litter nutrient dynamics under cocoa ecosystems in lowland humid Ghana. Plant Soil 330: 55-64. DOI
5	Dezzeo N, Chacon N, Sanoja E, Picon G. 2004. Changes in soil properties and vegetation characteristics along a forest-savanna gradient in Southern Venezuela. Forest Ecol Manag 200: 183-193. DOI
6	Dibog L, Eggleton P, Norgrove L, Bignell DE, Hauser S. 1999. Impacts of canopy cover on soil termite assemblages in an agrisilvicultural system in southern Cameroon. Bull Entomol Res 89: 125-132.
7	Gaur JP, Pandey HN. 1978. Litter production in two tropical deciduous forest communities at Varanasi, India. Oikos 30: 570-575. DOI
8	Glumphabutr P, Kaitpraneet S. 2007. Aboveground biomass and litterfall of natural evergreen forest in eastern region of Thailand. Thailand J Fo 26: 70-81.
9	Hopkins B. 1966. Vegetation of the Olokemeji Forest Reserve, Nigeria: IV. The litter and soil with special reference to their seasonal changes. J Ecol 54: 687-703. DOI
10	Jackson ML. 1958. Soil Chemical Analysis. Prentice Hall, Englewood Clifs, NJ, 498 pp.
11	Janmahasatien S, Phopinit S. 2001. Evaluation of soil carbon storage in forest ecosystem of Thailand. In: Faculty of Environment and Resource Studies, Mahidol University, ed. Critical Environment: Research and Direction of Thailand; Sep 26, 2001; Royal City Hotel: Faculty of Environment and Resource Studies, Mahidol University Bangkok. pp. 45-74.
12	Jenny H. 1941. Factors of Soil Formation: a system of quantitative pedology. Mcgraw-Hill, New York, 281 pp.
13	Jenny H, Gessel SP, Bingham FT. 1949. Comparative study of decomposition rates of organic matter in temperate and tropical regions. Soil Sci 68: 419-432. DOI
14	Jhariya MK. 2010. Analysis of vegetational structure, diversity and fuel load in fire affected areas of tropical dry deciduous forests in Chhattisgarh. MS thesis. Indira Gandhi Krishi Vishwavidyalaya, Raipur, India.
15	Jhariya MK. 2014. Effect of forest fire on microbial biomass, storage and sequestration of carbon in a tropical deciduous forest of Chhattisgarh. PhD Thesis. Indira Gandhi Krishi Vishwavidyalaya, Raipur, India.
16	Jhariya MK. 2017a. Influences of Forest Fire on Forest Floor and Litterfall in Bhoramdeo Wildlife Sanctuary (C.G.), India. J For Environ Sci 33: 330-341.
17	Jhariya MK. 2017b. Vegetation ecology and carbon sequestration potential of shrubs in tropics of Chhattisgarh, India. Environ Monit Assess 189: 518.
18	Jhariya MK, Bargali SS, Swamy SL, Kittur B. 2012. Vegetational structure, diversity and fuel load in fire affected areas of tropical dry deciduous forests in Chhattisgarh. Vegetos 25: 210-224.
19	Jobbágy EG, Jackson RB. 2000. The vertical distribution of soil organic carbon and its relation to climate and vegetation. Ecol Appl 10: 423-436. DOI
20	Jhariya MK, Bargali SS, Swamy SL, Kittur B, Bargali K, Pawar GV. 2014. Impact of forest fire on biomass and Carbon storage pattern of Tropical Deciduous Forests in Bhoramdeo Wildlife Sanctuary, Chhattisgarh. Int J Ecol Environ Sci 40: 57-74.
21	Johnston AE. 1986. Soil organic matter, effects on soils and crops. Soil Use Manag 2: 97-105. DOI
22	Jordan CF. 1985. Nutrient cycling in tropical forest ecosystems : principles and their application in management and conservation. Wiley, Chichester, 190 pp.
23	Kagezi GH, Kaib M, Nyeko P, Bakuneeta C, Schadler M, Brandl R. 2011. Decomposition of tissue baits and termite density along a gradient of human land‐use intensification in Western Kenya. Afr J Ecol 49: 267-276. DOI
24	Kagezi GH, Kaib M, Nyeko P, Bakuneeta C, Schadler M, Stadler J, Brandl R. 2016. Impacts of land-use intensification on litter decomposition in western Kenya. Web Ecol 16: 51-58. DOI
25	Kavvadias V, Alifragis D, Tsiontsis A, Brofas G, Stamatelos G. 2001. Litterfall, litter accumulation and litter decomposition rates in four forest ecosystems in northern Greece. For Ecol Manag 144: 113-127. DOI
26	Khurana P. 2007. Tree layer analysis and regeneration in tropical dry deciduous forest of Hastinapur. Indian For 16: 43-50.
27	Liu L, Gundersen P, Zhang T, Mo J. 2012. Effects of phosphorus addition on soil microbial biomass and community composition in three forest types in tropical China. Soil Biol Biochem 44: 31-38.
28	Kumar A, Ram J. 2005. Anthropogenic disturbances and plant biodiversity in forests of Uttaranchal, Central Himalaya. Biodivers Conserv 14: 309-331. DOI
29	Kumar JIN, Kumar RN, Bhoi RK, Sajish PR. 2010. Tree species diversity and soil nutrient status in three sites of tropical dry deciduous forest of western India. Trop Ecol 51: 273-279.
30	Kumar JIN, Sajish PR, Kumar RN, Patel K. 2011. Biomass and net primary productivity in three different aged butea forest ecosystems in Western India, Rajasthan. Iranica J Energy Environ 2: 1-7.
31	Lugo AE, Gonzalez-Liboy JA, Cintron B, Dugger K. 1978. Structure, productivity, and transpiration of a subtropical dry forest in Puerto Rico. Biotropica 10: 278-291. DOI
32	Madge DS. 1965. Leaf fall and litter disappearance in a tropical forest. Pedobiologia 5: 273-288.
33	Martinez-Yrizar A, Sarukhan J. 1990. Litterfall patterns in a tropical deciduous forest in Mexico over a five- year period. J Trop Ecol 6: 433-444. DOI
34	Martius C, Hofer H, Garcia MVB, Rombke J, Hanagarth W. 2004. Litter fall, litter stocks and decomposition rates in rainforest and agroforestry sites in central Amazonia. Nutr Cycl Agroecosystems 68: 137-154. DOI
35	Meentemeyer V, Box EO, Thompson R. 1982. World patterns and amounts of terrestrial plant litter production. Bioscience 32: 125-128.
36	Misra R. 1968. Ecology Work Book. Oxford and IBH, Calcutta.
37	Murphy PG, Lugo AE. 1986. Ecology of tropical dry forest. Annu Rev Ecol Syst 17: 67-88. DOI
38	Oraon PR, Singh L, Jhariya MK. 2014. Variations in herbaceous composition of dry tropics following anthropogenic disturbed environment. Curr World Environ 9: 967-979. DOI
39	Odiwe AI, Muoghalu JI. 2003. Litterfall dynamics and forest floor litter as influenced by fire in a secondary lowland rain forest in Nigeria. Trop Ecol 44: 243-251.
40	Olson JS. 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology 44: 322-331. DOI
41	Oraon PR, Singh L, Jhariya MK. 2015. Shrub species diversity in relation to anthropogenic disturbance of bhoramdeo wildlife sanctuary, Chhattisgarh. Environ Ecol 33: 996-1002.
42	Paul KI, Polglase PJ, O'Connell AM, Carlyle JC, Smethurst PJ, Khanna PK. 2003. Defining the relation between soil water content and net nitrogen mineralization. Eur J Soil Sci 54: 39-48. DOI
43	Pawar GV, Singh L, Sarvade S, Lal C. 2014. Litter production and soil physico-chemical properties influenced by different degraded sites of tropical deciduous forest, Chhattisgarh, India. Ecoscan 8: 349-352.
44	Pimm SL, Raven P. 2000. Biodiversity. Extinction by numbers. Nature 403: 843-845. DOI
45	Polyakova O, Billor N. 2007. Impact of deciduous tree species on litterfall quality, decomposition rates and nutrient circulation in pine stands. For Ecol Manag 253: 11-18.
46	Pragasan LA, Parthsarthy N. 2005. Litter production in tropical dry evergreen forests of south India in relation to season, plant life-forms and physiognomic groups. Curr Sci 88: 1255-1263.
47	Raikwal D. 2008. Effect of leaf litter removal on soil nutrients in the Central Himalayan banj oak and chir pine forests with relation to carbon sequestration. PhD thesis. Kumaun University, Nainital, India.
48	Proctor J. 1983. Tropical forest litter fall. I. Problems of data comparison. In: Tropical Rain Forest: Ecology and Management (Sutton SL, Whitmore TC, Chadwick AC, eds). Blackwell Scientific Publication, Oxford, pp 267-273.
49	Proctor J. 1987. Nutrient cycling in primary and old secondary rainforests. Appl Geogr 7: 135-152.
50	Proctor J, Anderson JM, Fogden SC, Vallack HW. 1983. Ecological studies in four contrasting lowland rain forests in Gunung Mulu National Park, Sarawak: II. Litterfall, litter standing crop and preliminary observations on herbivory. J Ecol 71: 261-283. DOI
51	Rajendraprasad M, Krishnan PN, Pushpangadan P. 2000. Vegetational characterisation and litter dynamics of the sacred groves of Kerala, Southwest India. J Trop For Sci 12: 320-335.
52	Rawat VS. 2012. Litter fall and soil nutrient returns in community managed forest in Lamgara block of Uttarakhand. Nat Sci 10: 38-42.
53	Sahu KP, Singh L, Jhariya MK. 2013. Fine root biomass, forest floor and nutrient status of soil in an age series of teak plantation in dry tropics. Bioscan 8: 1149-1152.
54	Salter PJ, Williams JB. 1969. The moisture characteristics of some Rothamsted, woburn and saxmundham soils. J Agric Sci 73: 155-158.
55	Singh B, Tripathi KP, Singh K. 2011. Community structure, diversity, biomass and net production in a rehabilitated subtropical forest in north India. Open J For 1: 11-26.
56	Sanches L, Valentini CMA, Júnior OBP, Nogueira JDS, Vourlitis GL, Biudes MS, Silva CJD, Bambi P, Lobo FDA. 2008. Seasonal and interannual litter dynamics of a tropical semideciduous forest of the southern Amazon Basin, Brazil. J Geophys Res 113: 1-9.
57	Sapkota IP, Tigabu M, Oden PC. 2009. Spatial distribution, advanced regeneration and stand structure of Nepalese Sal (Shorea robusta) forests subject to disturbances of different intensities. For Ecol Manag 257: 1966-1975.
58	Schnitzer M, Khan SU. 1978. Soil Organic Matter. Elsevier Scientific Publication Co, Amsterdam.
59	Shrestha R, Karmacharya SB, Jha PK. 2000. Vegetation analysis of natural and degraded forests in Chitrepani in Siwalik region of Central Nepal. Trop Ecol 41: 111-114.
60	Simard DG, Fyles JW, Pare D, Nguyen T. 2001. Impacts of clearcut harvesting and wildfire on soil nutrient status in the Quebec boreal forest. Can J Soil Sci 81: 229-237. DOI
61	Singh G, Gupta GN, Kuppusamy V. 2000. Seasonal variations in organic carbon and nutrient availability in arid zone agroforestry systems. Trop Ecol 41: 17-23.
62	Singh L. 1995. Seasonal variation in biomass and nutrient content of the forest floor in a dry tropical forest. Oecologia Mont 4: 21-26.
63	Singh L. 2004. Dry matter and nutrient inputs through litterfall in a dry tropical forest of India. Vegetatio 98: 129-140.
64	Singh L, Singh JS. 1991. Species structure, dry matter dynamics and carbon flux of a dry tropical forest in India. Ann Bot 68: 263-273. DOI
65	Singh V. 2009. Biomass stock and Carbon Sequestration rates in banj oak (Quercus leucotrichophora, A. Camus.) forests under different disturbance regimes in Central Himalaya. PhD thesis. Kumaun University, Nainital, India.
66	Sizer NC, Tanner EVJ, Kossmann Ferraz ID. 2000. Edge effects on litterfall mass and nutrient concentrations in forest fragments in Central Amazonia. J Trop Ecol 16: 853-863. DOI
67	Snedecor GW, Cochran WG. 1967. Statistical Methods. Oxford and IBH Publ. Co., New Delhi.
68	Sun Y, Wu J, Shao Y, Zhou L, Mai B, Lin Y, Fu S. 2011. Responses of soil microbial communities to prescribed burning in two paired vegetation sites in southern China. Ecol Res 26: 669-677. DOI
69	Sundarapandian M, Swamy PS. 1999. Litter production and leaf-litter decomposition of selected tree species in tropical forests at Kodayar in the Western Ghats, India. For Ecol Manag 123: 231-244. DOI
70	Swamy SL, Dutt CBS, Murthy MSR, Mishra A, Bargali SS. 2010. Floristic and dry matter dynamics of tropical wet evergreen forests of Western Ghats, India. Curr Sci 99: 353-364.
71	Swift MJ, Russell-Smith A, Perfect TJ. 1981. Decomposition and mineral-nutrient dynamics of plant litter in a regenerating bush-fallow in sub-humid tropical Nigeria. J Ecol 69: 981-995.
72	Takahashi M, Hirai K, Limtong P, Leaungvutivirog C, Suksawang S, Panuthai S, Anusontpornperm S, Marod D. 2009. Soil respiration in different ages of teak plantations in Thailand. Jpn Agric Res Q 43: 337-343. DOI
73	Tandon S, Sahu SK, Mishra ASP, Mishra PC. 2012. Litter disappearance in ash mound plantation site. Ecoscan 1: 83-86.
74	Aquiar ACF, Bicudo SJ, Sobrinho JRSC, Martins ALS, Coelho KP, de Moura EG. 2010. Nutrient recycling and physical indicators of an alley cropping system in a sandy loam soil in the pre-Amazon region of Brazil. Nutr Cycl Agroecosystems 86: 189-198.
75	Barbhuiya AR, Arunachalam A, Pandey HN, Khan ML, Arunachalam K. 2012. Fine root dynamics in undisturbed and disturbed stands of a tropical wet evergreen forest in northeast India. Trop Ecol 53: 69-79.
76	Berg B. 2000. Litter decomposition and organic matter turnover in Northern forest soils. For Ecol Manag 133: 13-22. DOI
77	Bernhard F. 1970. Etude de la litiere et de sa contribution au cycle des elements mineraux en foret ombrophile de Cote-d'Ivoire. Oecol Plant 5: 247-266.
78	Bihn JH, Verhaagh M, Brandle M, Brandl R. 2008. Do secondary forests act as refuges for old growth forest animals? Recovery of ant diversity in the Atlantic forest of Brazil. Biol Conserv 141: 733-743. DOI
79	Brady NC. 1984. The Nature and Properties of Soils. Collier MacMillan, New York.
80	Bray JR, Gorham E. 1964. Litter production in forests of the world. Ad Ecol Res 2: 101-157.
81	Brown S, Lugo AE. 1982. The storage and production of organic matter in tropical forests and their role in the global carbon cycle. Biotropica 14: 161-187. DOI
82	Vitousek PM, Sanford RL Jr. 1986. Nutrient cycling in moist tropical forest. Ann Rev Ecol Syst 17: 137-167. DOI
83	Tangsinmankong W, Pumijumnong N, Moncharoen L. 2007. Carbon stocks in soil of mixed deciduous forest and teak plantation. Environ Nat Res J 5: 80-86.
84	Tiwari SD, Joshi R. 2013. Litter decomposition and nutrient release pattern of some prominent tree species in the cool-temperate forests of the Nanda Devi Biosphere Reserve in Uttarakhand, India. Int J Conserv Sci 4: 329-336.
85	Triadiati T, Tjitrosemito S, Guhardja E, Sudarsono, Qayim I, Leuschner C. 2011. Litterfall Production and Leaf-litter Decomposition at Natural Forest and Cacao Agroforestry in Central Sulawesi, Indonesia. Asian J Biol Sci 4: 221-234. DOI
86	Vogt KA, Grier CC, Vogt DJ. 1986. Production, turnover, and nutrient dynamics of above- and belowground detritus of world forests. Adv Ecol Res 15: 303-377.
87	Wang Q, Wang S, Huang Y. 2008. Comparisons of litterfall, Litter decomposition and nutrient return in a monoculture Cunninghamia lanceolata and a mixed stand in southern China. For Ecol Manag 255: 1210-1218. DOI
88	Xuluc-Tolosa FJ, Vester HFM, Ramirez-Marcial N, Castellanos-Albores J, Lawrence D. 2003. Leaf litter decomposition of tree species in three successional phases of tropical dry secondary forest in Campeche, Mexico. For Ecol Manag 174: 401-412. DOI
89	Yadav DK, Ghosh L, Jhariya MK. 2017. Forest Fragmentation and Stand Structure in Tropics: Stand Structure, Diversity and Biomass. Lap Lambert Academic Publishing, Saarbrucken, 116 pp.
90	Yadav RS, Yadav BL, Chhipa BR. 2008. Litter dynamics and soil properties under different tree species in a semi-arid region of Rajasthan, India. Agrofor Syst 73: 1-12. DOI
91	Burghouts TBA, van Straalen NM, Bruijnzeel LA. 1998. Spatial heterogeneity of element and litter turnover in a Bornean rain forest. J Trop Ecol 14: 477-505. DOI
92	Burke IC. 1989. Control of nitrogen mineralization a sagebrush steppe landscape. Ecology 70: 1115-1126. DOI
93	Champion HG, Seth SK. 1968. A revised Survey of the Forest Types of India. Government of India Publication, New Delhi.
94	Chauhan DS, Singh B, Chauhan S, Dhanai CS, Todaria NP. 2010. Regeneration and plant diversity of natural and planted sal (Shorea robusta Gaertn.F.) forests in the Terai Bhabhar of Sohagibarwa Wildlife Sanctuary, India. J Am Sci 6: 32-45.
95	Zhou G, Liu S, Li Z, Zhang D, Tang X, Zhou C, Yan J, Mo J. 2006. Old-growth forests can accumulate carbon in soils. Science 314: 1417. DOI
96	Zhou G, Guan L, Wei X, Zhang D, Zhang Q, Yan J, Wen D, Liu J, Liu S, Huang Z, Kong G, Mo J, Yu Q. 2007. Litterfall production along successional and altitudinal gradients of subtropical monsoon evergreen broadleaved forests in Guangdong, China. Plant Ecol 188: 77-89.